Device for controlling the current produced by vapor rectifiers



FIPSlOb Jan. 3, 1928.

P. M. G. TOULON DEVICE FOR CONTROLLING THE CURRENT PRODUCED BY VAPOR HEUTIPIERS 2 Shanta-Sheet 1 Filed Ray 22. 1925 Even/Z0; TM GToulazz/ 29 Jan- 3, 1928.

P. M. G. TOULON DEVICE IOR OOITROLLIIG THE CURRENT PRODUCED BY VAFDR BECTIIIBRS Filed Bay 22. 1925 Patented Jan. 3, 1928.

UNITED STATES PATENT OFFICE.

PIERRE MARIE GABRIEL TOU'LON, 0F PARIS, FRANCE, ASSIGNOB, BY MESNE ASSIGN- MENTS, TO GENERAL ELECTRIC COMPANY, A CORPORATION OF NEW YORK.

DEVICE FOR CONTROLLING THE CURRENT PRODUCED BY VAPOR RECTII'IERS.

Application filed May 22, 1925, Serial No. 32,226, and in France May 27, 1924.

Patent applications Serial Numbers 682,- received by the coating can be registered by 093 and 682.099 show means whereby vapor photography so as to cause them to be either rectifiers can be used for nearly all purposes read directly on the photographic band or for which ionic valves are generally used. changed back again into optical signals with In accordance with the aforesaid applicaor without electric transmission. tions conducting parts such as a metallic The appended drawings show, by way of coating surrounding the rectifier are pr0-- example, applications of the above menvided, the potential of which is acted upon so tioned connections. as to prevent, when desired, the are from Figures 1 and 2 are diagrams illustrating forming in the rectifier before a given apparatus specially adapted for optically moment of the half-period during which it transmitting telegraphic signals. is normally ignited. Fig. 3 illustrates one form of apparatus My invention is similar in some respects thatmay be utilized to receive the signals to those disclosed by the aforesaid applicatransmitted by the apparatus of Figs. 1 tions, but relates more particularly to an imand 2. proved electro-optic relay apparatus which Fig. 4 shows a device for transforming the may be readily operated to emit light of an optic signals produced into electric current intensity dependent on electrical impulses. impulses.

Such an electro-optic relay can be used Fig. l is a diagram of the connections for for signalling in optic telegraphy. the source a rectifier used for optic telegraphy. An of light being the rectifier provided with its alternating current generator 1 feeds for coating. The brilliancy of the are varies instance a suitable auto-transformer feeding with the potential of the coating and the a rectifier through the anode 3 and the oathluminous rays directed towards the receivode 5 which is ignited by means of the auxing station are observed directly or else are iliary anode 6 fed through the resistance a. adapted to produce electric si nals corre- The exciting electrodes 7 and 8 fed through spending to he variations of the potential the resistances 9 and 10 and the induction of the coating. The signals which make the coil 11 Keep it ignited. The feeding of these said potential vary can either be produced by electrodes 6, 7 and 8 can be provided, for a contact breaker connected with the coating instance, by an auxiliary winding on the or by electric or radioelectric signals given auto-transformer 2. out by a distant station and received by an The coating 12 which, as explained in patelectric circuit feeding the coating. This cut application Serial No. 682,099, allows transformation of electric or radioelectric the intensity of the current to be varied and signals into optical signals can; be made therewith the brilliancy of the arc, is diseither at the transmitting station, or at the posed so as not to hide the light produced by receiving station. In the first case, the the apparatus. transmission at a distance being produced by This coating can be made for instance out luminous rays has the advantage of constiof a very fine gauze provided with a few tuting a secret signallin device which can large holes or of a helical wire rolled round only be detected along the path of the said the tube or else a series of belts or any other rays. In the second case of electric or radiodevice. electric signals being transformed into opti- The contact breaker 13 connects the coatcal signals at the receiving station, these ing with either end of the winding of the signals can be used for communicating with auto transformer and thereby allows the an aircraft with more ease than through ignition of the arc. The resistance 14 preradioelectric signals which are difficult to vents the current feeding the anode from receive by hearing, due to the noise of the being too great.

motors, and can be transformed on the air- Fig. 2 shows diagrammatically the concraft itself into optical signals. nections in an apparatus for optically trans- In some applications the optical signals mitting signals which the device receives produced by the change in the brilliancy of electrically by a telegraphic or radiotelethe arc according to the electric signals graphic device.

The receiver 23 of the telegraphic signals feeds directly if fed with direct current or through a transformer in the case of alternating current the coating 16 which surrounds the anode 15 of a rectifier. The cathode 17 is kept in ignition by a suitable device such as an auxiliary anode 18 fed by the auxiliary D. C. supply 19 through the adjustable resistance 20. The anode 15 is fed by the A. C. supply 21 through a suitable resistance 22.

If the values of the resistances and of the supplies are suitably chosen and adjusted for each transmission the arc will be ignited and produce optical signals.

This optical transmission device for registering and producing signals can be use also for telephonic or radiotelephonic transmissions. In this case. the rectifier should have its coating connected with a transmitting or receiving device for telephonic or radiotelephonic signals, The variations in the brilliancy of the are are registered on a photographic band which can afterwards he used with a photoelectrical device such as a photoelectrical cell or a selenium cell which transforms the changes in the brilliancy which it receives into electrical modulations which act upon a telephonic receiver.

In order to increase the brilliancy of the are, without producing an exaggerated heating of the whole of the tube which would prevent a proper workin of the coating and a proper inspection of tie brilliancy of the arc, it is preferable to provide the lamp with a narrow part along the axis of said lamp and in the direction which is to be lighted. The luminous rays can be projected by a lens or by a suitable mirror.

In order to ensure secrecy to the optic signals. the visible part of the spectrum of the rays produced can be eliminated by a suitable screen which only lets either the ultraviolet or the ultra-red rays pass.

The optically transmitted signals can be received directly by the eye or by means of an optical device or else be registered on a photographic film 40 as shown on Fig. 3, the luminous rays being concentrated by means of a lens or an optic system 41.

Figure 4 is a diagram of the connections which allow the optic transmission of telephonic or radiotelephonic signals. The lens 42 concentrates the luminous rays received from a transmitting station such as the one shown on Fig. 1 or 9. on a photoelectric cell 43 the electrodes of which are fed ii I by a constant difference of potential produced for instance by the battery 44.

If the frequency of the current received is musical, it can be perceived by the telephonic receiver 45, for instance through the amplifier 46.

What I claim is:

1. The combination of alternating current supply means, a continuously excited mercury arc rectifier provided with a cathode and an anode connected to said supply means for producing an arc and with a control electrode perforated for permitting the (fission of light from said arc, and means connected between said cathode and control electrode for varying the intensity of said (1 light.

2. The combination of an alternating current source, a continuously excited vapor electric device connected to said source for producing an arc and provided with a perforated electrode arranged to surround said are, and means connected to said electrode for varying the intensity of the light emitted through the perforations of said electrode.

3. The combination of an alternating current source, a continuously excited mercury arc rectifier provided with a cathode and an anode connected to said source and with a perforated electrode arranged to surround the are produced between said cathode and said anode by said source, and means connected between said cathode and said electrode for modulating the intensity o t the light emitted through saidfel'eic'trode.

4. The combination o i alternating current supply means, an arc device provided with a cathode and an anode connected to said supply means and with a wire gauze control electrode arranged to surround the arc of said device, and means connected between said cathode and control electrode for modulating the intensity of said light.

5, The combination of alternating current supply means, an arc device provided with a cathode and an anode connected to said supply means and with a wire gauze control electrode arranged to surround the arc of said device. means connected between said cathode and control electrode for modulating the intensity of said light. and means l for producing an electrical etlect dependent on the intensity of said light.

In witness whereof I have hereunto set my hand.

PIERRE MARIE GABRIEL TOULON. 

